JP2011174610A - Tube-socket assembly and method of manufacturing the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a tube-socket assembly which can maximize the binding force between a tube and a socket and which can minimize leakage from the connecting part between the tube and the socket, and to provide a method of manufacturing the same. <P>SOLUTION: This tube-socket assembly includes a through-hole portion which is fastened to the tube on which first and second beads are formed and in which a through-hole portion is formed at a predetermined length, and a guide portion formed separated at a predetermined distance from the tube. In the assembly, a first taper portion having an inclined surface is formed on one side of the first bead, and the first taper portion forms a bead lock by being brought into line-contact with an inner end portion of the through-hole portion positioned in the socket. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a tube-socket assembly and a method for manufacturing the same, and more particularly to a tube-socket assembly and a method for manufacturing the same that can strengthen a sealing between the tube and the socket and provide a firm fastening structure.

  Research and development on a tube-socket direct fastening structure in which a tube and a socket are directly fastened, that is, a tube-socket assembly, has been advanced. In particular, when connecting tubes through which a high-pressure fluid flows, it is required to implement a solid sealing that can minimize the leakage of the seal from the connection site.

  A conventional tube-socket assembly is shown in FIGS. The tube-socket assembly shown in FIG. 1 has a so-called caulking fastening structure. As shown in FIG. 1, after forming the inner bead 11, the tube 10 is inserted into the socket 20, and then a portion of the socket is squeezed using a punch so that a portion of the socket becomes the inner bead. The sealing is formed so as to caulk 11.

  In the tube-socket assembly by caulking shown in FIG. 1, the sealing is basically formed along the entire outer peripheral surface of the inner bead 11. As a result, the portion where the sealing is formed is distributed over a wide area. Thus, when the area where the sealing is formed is increased, the fastening force between the socket 20 and the tube 10 is reduced, and from the fastening portion, There is a problem that leakage increases. Even if the pressure applied by the punch for forming the caulking is increased, there is no change in the area in which the sealing is formed. Therefore, the increase in the pressure due to the punch cannot solve the decrease in the fastening force.

  Furthermore, if the pressure applied by the punch increases, there may be a problem that the inner diameter of the tube becomes narrower than the other portions at the position 12 corresponding to the caulking forming portion surrounding the inner bead 11. That is, as the pressure applied by the punch increases, a phenomenon occurs in which the material forming the tube 10 is solidified around the deformed portion in the tube 10, and thereby the position illustrated in FIG. 1. The phenomenon that the tube 10 becomes narrow near 12 occurs.

  FIG. 2 shows another example of a conventional tube-socket assembly. The tube-socket assembly shown in FIG. 2 applies a pressure to a tube portion located inside the socket 40 using a punch after inserting the tube 30 formed with the external beads 32 into the socket 40. In this structure, the inner beads 31 are formed, and a sealing is formed between the inner beads 31 thus formed and the socket 40. Such a fastening form between the inner bead 31 and the socket 40 is referred to as a so-called bead lock.

  In the case of a bead-locked tube-socket assembly, in the step of forming the internal bead 31 after the socket 40 is positioned at a predetermined position, the outer peripheral surface of the internal bead 31 and the socket are initially formed. By making line contact with the terminal portions 41 of the 40 through holes, the area of the portion where the sealing is formed can be minimized. However, in the bead-locked tube-socket assembly shown in FIG. 2, the outer peripheral surface of the inner bead 31 is increased by increasing the pressure applied by the punch to form a sufficiently high inner bead 31. The contact area between the socket 40 and the end portion 41 of the through hole of the socket 40 is increased. However, such an increase in the contact area reduces the sealing.

  3a through 3c show the steps of forming the conventional bead-locked tube-socket assembly shown in FIG. The step of forming a conventional bead-locked tube-socket assembly begins with the formation of external beads 32 in a tube 30 as shown in FIGS. 3a-3c. Thereafter, the socket 40 is positioned at a position where the external bead 32 contacts the outer end of the socket 40. Thus, after arrange | positioning the socket 40 on the tube 30, a part of tube 30 is squeezed to the socket 40 side using a punch, and the internal bead 31 is formed. Thus, after forming the external bead 32 and installing the socket 40, the internal bead 31 is formed, so that a phenomenon in which the socket 40 is pushed toward the external bead 32 may occur in a pressing step by punching. Therefore, there is a problem that the sealing between the inner bead 31 and the socket 40 is weakened.

  The bead-locked tube-socket assembly shown in FIG. 2 is also deformed inside the tube by applying a squeezing force in the step of forming the inner beads 31 as in the structure shown in FIG. A phenomenon occurs in which the material forming the tube 30 is solidified around the portion where the phenomenon occurs, and the tube 30 is narrowed near the position 33 shown in FIG.

  In addition, when an excessive pressure for forming the inner bead 31 is applied to the tube 30 in a state where the outer bead 32 is formed, the coating layer formed on the surface of the outer bead 32 may be peeled off. However, in this way, when the coating of the external bead 32 portion exposed to the outside of the socket 40 is peeled off, there is a problem that the corrosion resistance of the tube 30 is lowered.

  An object of the present invention is to solve the problems of the prior art as described above. First, an internal bead having a tapered portion is formed on one side, and the internal bead is accommodated inside the socket. After forming the stepped portion that provides a space that can be made, the cohesive force of the tube and socket can be maximized by allowing the inner beads to form a seal in line contact with the socket. It is an object of the present invention to provide a tube-socket assembly and a method for manufacturing the same that can minimize the leakage of a pipe from a connecting portion.

  In order to solve the above-described problems, an embodiment of a tube-socket assembly according to the present invention includes a tube formed with first and second beads, and a tube that is fastened to the tube and has a predetermined length. The tube-socket assembly includes a through-hole portion that is formed and a socket that includes a guide portion that is spaced apart from the tube by a predetermined distance, and a first bead having an inclined surface on one side of the first bead. A taper part is formed, and the first taper part is in line contact with an inner terminal part of the through hole part located in the socket to form a bead lock.

  Here, it is preferable that the socket further includes a stepped portion that forms a step from the inner terminal portion of the through-hole portion to the inner wall surface of the guide portion, and such a stepped portion is formed inside the through-hole portion. A first vertical surface extending vertically from the end portion, a horizontal plane perpendicular to the first vertical surface and extending along the longitudinal direction of the tube, and from the horizontal plane to the inner wall surface of the guide portion in the vertical direction It is preferable to include a second vertical surface that is formed to be extended.

  Thus, by manufacturing the first bead as the internal bead in the form of a tapered bead, the area of the portion in contact with the socket can be minimized, and the binding force between the tube and the socket can be increased.

  In addition, since the first bead is formed with an inclined first taper portion, a space formed therein is formed larger than that of a conventional general bead in the pressure direction applied by the punch. can do. In this way, when the internal space of the beads is formed large, a considerable portion of the pressure applied to the tube by the punch can be eliminated in such an internal space. The phenomenon that the tube material is hardened in the central direction is greatly relaxed as compared with the case of conventional general beads, and the phenomenon that the inner diameter of the tube is narrowed can also be prevented.

  On the other hand, on the other side of the first bead, a vertical portion is formed extending vertically from the outer peripheral edge of the tube. Such a vertical portion is flush with the second vertical surface of the stepped portion. Can be formed. In addition, the top of the vertical portion of the first bead can be formed so as to contact the horizontal surface of the socket.

  The through-hole portion of the socket can be formed in a form that maintains the same diameter throughout, and is formed in a form in which the diameter gradually increases from a predetermined position to the inner end portion of the through-hole portion. You can also.

  The second bead of the tube is an external bead formed so as to be in contact with the external terminal portion of the through hole portion of the socket outside the socket, and a second bead having an inclined surface on one side of the second bead. It is preferable that a tapered portion is formed. On the other hand, the socket is preferably formed to have a form in which a step is formed between the outer peripheral edge of the outer terminal portion of the through-hole portion and the outer peripheral edge of the guide portion.

  The stepped portion formed along the outer periphery of the socket can provide a space for covering a guide mold used when squeezing the tube-socket assembly. The squeezing can be performed with a stronger pressure without being restricted by interference between the molds used for squeezing the socket assembly.

  A method for manufacturing a tube-socket assembly according to an embodiment of the present invention includes forming a first bead on a tube and forming a first tapered portion having an inclined surface on one side of the first bead. A through-hole portion in which a through-hole having a diameter corresponding to the outer diameter of the tube is formed with a predetermined length, and a guide portion that is spaced apart from the tube by a certain distance and forms a space into which another tube can be inserted A socket disposing step of positioning the socket so that an inner terminal portion of the through hole portion located inside the socket is in line contact with the first tapered portion; Pressure is applied to the other side opposite to the one side on which the first tapered portion is formed, and the second beads are formed outside the socket on the tube. Characterized in that between the supermarkets portion of the inner end of the through hole and a second bead forming step of forming the bead lock.

  Here, as described above, the socket is formed so as to extend along the longitudinal direction of the tube, forming the first vertical surface extending in the vertical direction from the inner terminal portion of the through hole portion, and being perpendicular to the first vertical surface. And a stepped portion formed of a second vertical surface extending vertically from the horizontal surface to the inner wall surface of the guide portion. When forming the second bead, the other side of the first bead is formed. A vertical portion perpendicular to the outer peripheral edge of the tube is simultaneously formed. The vertical portion formed in this way is preferably formed so as to be flush with the second vertical surface of the socket. Here, the vertical part of the second bead and the first bead can be formed simultaneously.

  Meanwhile, in the second bead forming step, a second taper portion having an inclined surface is formed on one side of the second bead, and the second taper portion is a vise for fixing the tube to which the socket is temporarily assembled. ) In the tapered portion.

  In this way, in the mold used to squeeze the tube-socket assembly, the second bead is formed even if the pressurizing force is increased by forming a tapered portion in the vise itself and forming the second bead. It is possible to prevent the phenomenon that the coating layer at the formation portion is damaged.

  According to the tube-socket assembly and the method of manufacturing the same according to the present invention, the inner beads and the socket are pressed while maintaining the initial contact state as much as possible, and the area where the sealing is formed is wide in the pressing step. It is possible not to become too much, and the binding force between the tube and the socket can be strengthened.

  Also, even if the pressure applied to the inner beads increases, the phenomenon that the material is hardened on the center side of the tube does not occur, the phenomenon that the tube narrows can be prevented, and the coating of the part where the outer beads are formed Can be prevented from being damaged.

  Furthermore, restrictions due to interference between molds used for squeezing the tube-socket assembly can be reduced, and a stronger pressure can be applied to form a bead lock.

  Hereinafter, a tube-socket assembly and a method of manufacturing the same according to the present invention will be described with specific embodiments with reference to the accompanying drawings.

  The present invention is not limited to the description of the embodiments described below, and various modifications can be made without departing from the technical gist of the present invention.

  On the other hand, in describing the embodiments, descriptions of technical contents that are widely known in the technical field to which the present invention belongs and are not directly related to the technical gist of the present invention will be omitted. In the accompanying drawings, some components may be exaggerated or omitted, and may be schematically illustrated. This is to make the gist of the present invention clearer by omitting unnecessary descriptions that are not related to the gist of the present invention.

  <Tube-socket assembly>

  FIG. 4 is a cross-sectional view of a tube-socket assembly according to an embodiment of the present invention.

  As shown in FIG. 4, the tube-socket assembly according to an embodiment of the present invention includes a tube 100 in which first and second beads 110 and 120 are formed, and a socket 200 fastened to the tube 100. Composed.

  The first beads 110 formed in the tube 100 are internal beads positioned inside the socket 200, and the second beads 120 are external beads positioned outside the socket 200. A first tapered portion 111 having an inclined surface is formed on one side of the first bead 110. The inclination angle of the first taper portion 111 is not particularly limited. A vertical portion 112 perpendicular to the outer peripheral surface of the tube 100 is formed on the other side opposite to the one side where the first tapered portion 111 is formed. The second bead 120 is also formed with a second tapered portion 121 having an inclined surface on one side. The inclination angle of the second tapered portion 121 is not particularly limited. On the other hand, in the embodiment shown in FIG. 4, the second bead 120 is also formed with the second tapered portion 121 on one side, but the present invention is not limited to this. In the configuration of the tube-socket assembly according to the present invention, it is sufficient that the first bead 110 corresponding to the internal bead has a tapered portion.

  A coating layer is formed on the tube 100, and in particular, the coating layer is formed on a portion that extends in the direction in which the second bead 120 is formed on the basis of the first bead 110. The coating on the portion of the tube 100 located inside the socket 200 can be removed prior to forming the first bead 110.

  A socket 200 is fastened around the outer peripheral edge of the tube 100. The socket 200 includes a through-hole portion 210 in which a through-hole having a diameter corresponding to the outer diameter of the tube 100 is formed so that the tube 100 can be inserted, and a guide portion that is formed at a certain distance from the outer peripheral edge of the tube 100. 230 and a stepped portion 220 that connects the through-hole portion 210 and the guide portion 230.

  Since the tube 100 is inserted into the socket 200 through the through hole, the diameter of the through hole formed in the through hole portion 210 is generally slightly larger than the outer diameter of the tube 100. The through-hole portion 210 includes an external termination portion 212 that is one end portion of the socket 200 and an internal termination portion 211 that is positioned inside the socket 200, and the internal termination portion 211 is a first taper of the first bead 110. Line contact is made with the inclined surface of the portion 111.

  The step portion 220 formed in the socket 200 is perpendicular to the first vertical surface 221 and the first vertical surface 221 that are formed to extend in the vertical direction from the inner terminal portion 211 of the through-hole portion 210, and the length of the tube 100. A horizontal plane 222 extending along the direction, and a second vertical plane 223 extending from the horizontal plane 222 to the inner wall surface of the guide portion 230 in the vertical direction. The first vertical surface 221 is high enough to allow the top portion 113 of the first bead 110 to contact the horizontal surface 222 when the first tapered portion 111 of the first bead 110 is squeezed by the inner terminal portion 211 of the through-hole portion 210. However, the present invention is not limited to this. In the horizontal plane 222, when the first tapered portion 111 of the first bead 110 is squeezed by the inner terminal portion 211 of the through-hole portion 210, the second vertical surface 223 and the vertical portion 112 of the first bead 110 are flush with each other. It is formed with such a length that it can be used.

  The guide part 230 of the socket 200 is formed at a predetermined distance from the outer peripheral edge of the tube 100, whereby a predetermined space is formed between the tube 100 and the guide part 230 of the socket inside the socket 200. Is done. Another tube (not shown) can be inserted into this space.

  The socket 200 further has a form having a step along the outer peripheral edge. That is, a step 240 is formed between the outer terminal portion 212 of the through-hole portion 210 and the outer peripheral edge of the guide portion 230. This level | step difference 240 provides the space for covering the guide metal mold | die of the metal mold | die for pressing of the tube-socket assembly mentioned later. On the other hand, the other side of the second bead 120, that is, the other side opposite to the one side where the second taper part 121 of the second bead 120 is formed, is the outer terminal part of the through-hole part 210 when squeezing with a punch. 212 comes into contact.

  FIG. 5a is a partially enlarged view of a portion indicated as A in FIG. 4, and FIG. 5b is a partially enlarged view of a portion indicated as A in a state before being squeezed into a state as shown in FIG. 5a. .

  As shown in FIG. 5a, in the tube-socket assembly according to an embodiment of the present invention, even if the first bead 110 is squeezed into the inner terminal portion 211 of the through-hole portion 210 by pressing with a punch or the like, It can be seen that the line contact state is maintained as much as possible. This is because squeezing occurs in a state where the inclined surface of the first tapered portion 111 is in line contact with the internal terminal portion 211 of the through-hole portion 210 accurately, and thereby the applied pressure is applied along the longitudinal direction of the tube 100. This is because the point where the pressure acts on the first tapered portion 111 can be stably maintained. On the other hand, as shown in FIG. 5b, before the bead lock is finally formed, the horizontal surface 222 of the socket 200 may not be in contact with the top 113 of the first bead 110. When the bead lock is formed, the top 113 of the first bead 110 comes into contact with the horizontal surface 222 of the socket 200.

  FIG. 6 is a partially enlarged view showing a first modification of the tube-socket assembly according to the present invention. The content shown in FIG. 6 is a modification different from FIG. 5a only in the part corresponding to the part A in FIG. As shown in FIG. 6, in the first modification of the tube-socket assembly according to the present invention, the through-hole portion 210 does not have the same diameter throughout the entire section, and the through-hole portion from a predetermined predetermined position is used. In a section 213 up to the inner terminal end 211 of 210, the diameter gradually increases. One embodiment of the tube-socket assembly according to one embodiment of the present invention shown in FIGS. 4 and 5a is different from the through-hole portion 210 having the same diameter over the entire section.

  FIG. 7 is a partially enlarged view showing a second modification of the tube-socket assembly according to the present invention. The second modified example shown in FIG. 7 is different from the first modified example shown in FIG. 6, and an additional horizontal plane 252 formed with a predetermined length from the inner terminal end 211 of the through-hole part 210, and this additional It includes an additional stepped portion 250 formed of an additional vertical surface 251 formed vertically from the end of the horizontal plane 252. As described above, the additional stepped portion 250 is further formed in the direction away from the first bead 110 from the inner terminal portion 211, so that the second modified example shown in FIG. 7 is the first modified example shown in FIG. Compared to the example, the sealing area is relatively small.

  <Method for manufacturing tube-socket assembly>

  FIGS. 8a to 8d are diagrams illustrating steps of a method for manufacturing a tube-socket assembly according to an embodiment of the present invention.

  As shown in FIG. 8 a, the first bead 110 is formed on the tube 100. Although not shown in the drawings, before forming the first beads 110, a step of cutting the tube to a desired length, a buffing step of removing a part of the coating layer formed on the tube, A contracting and rolling process of the rear end portion of the first bead 110 is performed first. Such buffing, contraction, and rolling processes are known to those skilled in the art of the present invention, and a specific description thereof will be omitted.

  Thus, after generating the first bead 110, the socket 200 is positioned in an appropriate position as shown in FIG. 8b. The socket 200 is installed at a position where the inner terminal portion 211 of the through-hole portion 210 is in line contact with the tapered portion 111 of the first bead 110.

  After the socket 200 is in the correct position, the tube-socket assembly is secured to a mold for squeezing the tube-socket assembly. As shown in FIG. 8c, the mold used to squeeze the tube-socket assembly guides the vise (vice, 300) that secures the tube-socket assembly, the punch 400 for applying pressure, and the squeezing step. The guide mold 500 and the elastic member 600 that gives an elastic force between the guide mold 500 and the vise 300 are configured.

  As shown in FIG. 8 c, the vise 300 is a device for fixing the tube-socket assembly, and the punch 400 is configured such that the vertical portion 112 of the first bead 110 is flush with the second vertical surface 223 of the socket 200. It is the equipment which provides the applied pressure which forms the 2nd bead 120 while pressing. On the other hand, as shown in FIGS. 8c and 8d, a tapered portion is formed in the vise 300, and the second tapered portion 121 is formed on one side of the second bead 120 by the tapered portion. The The guide mold 500 is a device that guides the socket 200 in a pressing step by the punch 400, and is formed so that the front end portion is matched with the step 240 of the socket 200. As described above, the guide mold 500 can be concealed by the step 240 of the socket 200, so that the tube-socket manufacturing method according to the present invention is not restricted by interference between the molds. The elastic member 600 is provided between one end portion of the vice 300 and the front end portion of the guide mold 500, and provides a predetermined elastic force in a pressing step using a punch.

  As shown in FIGS. 8c and 8d, in the method for manufacturing a tube-socket assembly according to an embodiment of the present invention, the second beads 120 are simultaneously formed in the step of squeezing the first beads 110 to form a bead lock. . Therefore, as in the prior art, by forming the internal beads after the external beads are formed first, the phenomenon that the coating layer formed on the external beads is damaged can be prevented. Furthermore, by forming the second tapered portion 121 on one side of the second bead 120 by the tapered portion formed on the vice 300, even if the pressing force by the punch 400 is increased, the second bead 120 is formed. It is possible to prevent the applied coating layer from being damaged.

1 is a cross-sectional view of an example of a tube-socket assembly according to the prior art. FIG. 6 is a cross-sectional view of another example of a tube-socket assembly according to the prior art. FIG. 3 is a diagram illustrating steps for manufacturing the conventional tube-socket assembly shown in FIG. 2. FIG. 3 is a diagram illustrating steps for manufacturing the conventional tube-socket assembly shown in FIG. 2. FIG. 3 is a diagram illustrating steps for manufacturing the conventional tube-socket assembly shown in FIG. 2. 1 is a cross-sectional view of a tube-socket assembly according to an embodiment of the present invention. It is drawing which expanded the A section shown by FIG. It is drawing which expanded the A section shown by FIG. FIG. 6 is an enlarged view of a portion of a tube-socket assembly according to a variation of the present invention. FIG. 6 is an enlarged view of a portion of a tube-socket assembly according to a variation of the present invention. 4 is a diagram illustrating a process of manufacturing a tube-socket assembly according to an exemplary embodiment of the present invention. 4 is a diagram illustrating a process of manufacturing a tube-socket assembly according to an exemplary embodiment of the present invention. 4 is a diagram illustrating a process of manufacturing a tube-socket assembly according to an exemplary embodiment of the present invention. 4 is a diagram illustrating a process of manufacturing a tube-socket assembly according to an exemplary embodiment of the present invention.

Claims (17)

A tube formed with first and second beads;
A socket including a through hole portion fastened to the tube and having a through hole formed at a predetermined length; and a guide portion formed at a predetermined distance from the tube;
A tube-socket assembly comprising:
A first taper part having an inclined surface is formed on one side of the first bead, and the first taper part is in line contact with an inner terminal part of the through-hole part located inside the socket to lock the bead. A tube-socket assembly characterized in that it forms a beadlock.   The tube-socket assembly according to claim 1, wherein the socket further includes a stepped portion that forms a step from an inner terminal portion of the through-hole portion to an inner wall surface of the guide portion, and is extended.   The stepped portion is a first vertical surface extending in the vertical direction from the inner terminal portion of the through-hole portion, a horizontal surface that is perpendicular to the first vertical surface and is extended along the longitudinal direction of the tube, The tube-socket assembly according to claim 2, further comprising a second vertical surface extending from the horizontal surface to an inner wall surface of the guide portion in a vertical direction.   A vertical portion is formed on the other side of the first bead so as to extend in a vertical direction from an outer peripheral edge of the tube. The vertical portion is formed to be flush with the second vertical surface. The tube-socket assembly according to claim 3.   The tube-socket assembly according to claim 4, wherein the top of the vertical portion of the first bead contacts a horizontal surface of the socket.   The tube-socket according to claim 1, wherein the through-hole portion of the socket is formed in a form in which a diameter gradually increases from a predetermined position to an inner terminal portion of the through-hole portion. Assembly.   The tube-socket assembly according to claim 1, wherein the through-hole portion of the socket further includes an additional step portion formed in a direction away from the first bead from the inner terminal portion.   The tube-socket assembly according to claim 1, wherein the second bead is formed outside the socket so as to be in contact with an external terminal portion of the through hole portion of the socket.   The tube-socket assembly according to claim 1, wherein a second tapered portion having an inclined surface is formed on one side of the second bead.   9. The tube-socket assembly according to claim 8, wherein the socket has a form in which a step is formed between an outer peripheral edge of an outer terminal portion of the through-hole portion and an outer peripheral edge of the guide portion. Forming a first bead on the tube and forming a first tapered portion having an inclined surface on one side of the first bead;
A through-hole portion having a predetermined length of a through-hole having a diameter corresponding to the outer diameter of the tube; and a guide portion that is spaced apart from the tube by a predetermined distance to form a space into which another tube can be inserted. A socket arrangement step of positioning the socket in the tube, and positioning the socket such that an inner terminal portion of the through-hole portion positioned inside the socket is in line contact with the first tapered portion;
A pressure is applied to the other side opposite to the one side on which the first tapered portion is formed to form a second bead on the tube outside the socket, and the inside of the first tapered portion and the through hole portion A second bead forming step for forming a bead lock between the end portions;
A method of manufacturing a tube-socket assembly comprising:   The socket includes a first vertical surface extending in a vertical direction from an inner terminal portion of the through-hole portion, a horizontal surface perpendicular to the first vertical surface and extending along a longitudinal direction of the tube, and The tube-socket assembly according to claim 11, wherein the tube-socket assembly is formed to include a stepped portion formed of a second vertical surface that extends vertically from the horizontal surface to the inner wall surface of the guide portion. Manufacturing method.   The tube-socket assembly of claim 12, wherein the second bead forming step further comprises a step of forming a vertical portion perpendicular to an outer periphery of the tube on the other side of the first bead. Lee's manufacturing method.   The tube-socket assembly according to claim 13, wherein the vertical part formed in the second bead forming step is formed to be flush with a second vertical surface of the socket. Method.   The method of claim 14, wherein the second bead and the vertical part are formed simultaneously.   The tube-socket assembly according to claim 11, wherein the second bead is formed to have a second tapered portion having an inclined surface on one side in the second bead forming step. Method.   The tube-socket assembly of claim 16, wherein the second taper part is formed by a taper part formed on a vice for fixing a state in which the socket is positioned on the tube. Manufacturing method.

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